RE123溶融凝固バルクの高臨界電流特性化に対する微量置換効果

抄録

Effects of RE mixing and dilute impurity doping for the CuO chain on the critical current properties for RE123 melt-solidified bulks were investigated. Low level Lu or Tb mixing to the RE site of Y123 or Dy123 melt-solidified bulks showed high J_c characteristics compared to the undoped bulks. Especially in the a-growth region of Tb mixed bulks, J_c in the low magnetic field was largely improved up to ∼ 10⁵ A cm^-2 at 77 K. Through microstructural observation, X-ray diffraction and local compositional analysis, the formation of finely dispersed BaTbO₃ precipitates was confirmed in the Dy123 matrix, suggesting that these precipitates acted as effective pinning centers. The addition of fine BaTbO₃ powder was also effective for enhancement of J_c. Furthermore, Tb₄O₇ added Dy123 melt-solidified bulks exhibited remarkably improved J_c due to the generation of fine BaTbO₃ precipitates with 0.1 ∼ 0.2 μm in size in the Dy123 matrix without decreasing T_c. This result means Tb₄O₇ is a more effective additive than CeO₂, which slightly decreases T_c. On the other hand, effects of dilute impurity doping to the CuO chain of Y123 melt-solidified bulks on their flux pinning properties were also studied. All the Fe-, Co-, and Ga-doped samples maintained high T_c above 90 K and exhibited dramatically improved J_c characteristics accompanying huge second peaks in J_c-H curves. This result suggests that the introduction of local disorders in the CuO chain by dilute impurity doping is more excellent way to improve the critical current properties of the RE123 system than direct impurity substitution for Cu in the CuO₂ plane, which always decreases T_c.